/*
 * synergy -- mouse and keyboard sharing utility
 * Copyright (C) 2015-2016 Symless Ltd.
 * 
 * This package is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * found in the file LICENSE that should have accompanied this file.
 * 
 * This package is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */

#define TEST_ENV

#include "test/mock/ipc/MockIpcServer.h"

#include "mt/Thread.h"
#include "ipc/IpcLogOutputter.h"
#include "base/String.h"
#include "common/common.h"

#include "test/global/gmock.h"
#include "test/global/gtest.h"

// HACK: ipc logging only used on windows anyway
#if WINAPI_MSWINDOWS

using ::testing::_;
using ::testing::Return;
using ::testing::Matcher;
using ::testing::MatcherCast;
using ::testing::Property;
using ::testing::StrEq;
using ::testing::AtLeast;

using namespace synergy;

//TODO Fix the IPC Tests for windows, see #6709
// Tests disabled due to gtest/gmock update causing build problems
// Decision to disable tests and create issue instead due to time constraints
//inline const Matcher<const IpcMessage&> IpcLogLineMessageEq(const String& s) {
//    const Matcher<const IpcLogLineMessage&> m(
//        Property(&IpcLogLineMessage::logLine, StrEq(s)));
//    return MatcherCast<const IpcMessage&>(m);
//}
//
//TEST(IpcLogOutputterTests, write_threadingEnabled_bufferIsSent)
//{
//    MockIpcServer mockServer;
//    mockServer.delegateToFake();
//
//    ON_CALL(mockServer, hasClients(_)).WillByDefault(Return(true));
//
//    EXPECT_CALL(mockServer, hasClients(_)).Times(AtLeast(3));
//    EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 1\n"), _)).Times(1);
//    EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 2\n"), _)).Times(1);
//
//    IpcLogOutputter outputter(mockServer, kIpcClientUnknown, true);
//    outputter.write(kNOTE, "mock 1");
//    mockServer.waitForSend();
//    outputter.write(kNOTE, "mock 2");
//    mockServer.waitForSend();
//}
//
//TEST(IpcLogOutputterTests, write_overBufferMaxSize_firstLineTruncated)
//{
//    MockIpcServer mockServer;
//
//    ON_CALL(mockServer, hasClients(_)).WillByDefault(Return(true));
//    EXPECT_CALL(mockServer, hasClients(_)).Times(1);
//    EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 2\nmock 3\n"), _)).Times(1);
//
//    IpcLogOutputter outputter(mockServer, kIpcClientUnknown, false);
//    outputter.bufferMaxSize(2);
//
//    // log more lines than the buffer can contain
//    outputter.write(kNOTE, "mock 1");
//    outputter.write(kNOTE, "mock 2");
//    outputter.write(kNOTE, "mock 3");
//    outputter.sendBuffer();
//}
//
//TEST(IpcLogOutputterTests, write_underBufferMaxSize_allLinesAreSent)
//{
//    MockIpcServer mockServer;
//
//    ON_CALL(mockServer, hasClients(_)).WillByDefault(Return(true));
//
//    EXPECT_CALL(mockServer, hasClients(_)).Times(1);
//    EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 1\nmock 2\n"), _)).Times(1);
//
//    IpcLogOutputter outputter(mockServer, kIpcClientUnknown, false);
//    outputter.bufferMaxSize(2);
//
//    // log more lines than the buffer can contain
//    outputter.write(kNOTE, "mock 1");
//    outputter.write(kNOTE, "mock 2");
//    outputter.sendBuffer();
//}
//
//// HACK: temporarily disable this intermittently failing unit test.
//// when the build machine is under heavy load, a race condition
//// usually happens.
//#if 0
//TEST(IpcLogOutputterTests, write_overBufferRateLimit_lastLineTruncated)
//{
//    MockIpcServer mockServer;
//
//    ON_CALL(mockServer, hasClients(_)).WillByDefault(Return(true));
//
//    EXPECT_CALL(mockServer, hasClients(_)).Times(2);
//    EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 1\nmock 2\n"), _)).Times(1);
//    EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 4\nmock 5\n"), _)).Times(1);
//
//    IpcLogOutputter outputter(mockServer, false);
//    outputter.bufferRateLimit(2, 1); // 1s
//
//    // log 1 more line than the buffer can accept in time limit.
//    outputter.write(kNOTE, "mock 1");
//    outputter.write(kNOTE, "mock 2");
//    outputter.write(kNOTE, "mock 3");
//
//    outputter.sendBuffer();
//
//    // after waiting the time limit send another to make sure
//    // we can log after the time limit passes.
//    // HACK: sleep causes the unit test to fail intermittently,
//    // so lets try 100ms (there must be a better way to solve this)
//    ARCH->sleep(2); // 2s
//    outputter.write(kNOTE, "mock 4");
//    outputter.write(kNOTE, "mock 5");
//    outputter.write(kNOTE, "mock 6");
//
//    outputter.sendBuffer();
//}
//#endif
//
//TEST(IpcLogOutputterTests, write_underBufferRateLimit_allLinesAreSent)
//{
//    MockIpcServer mockServer;
//
//    ON_CALL(mockServer, hasClients(_)).WillByDefault(Return(true));
//
//    EXPECT_CALL(mockServer, hasClients(_)).Times(2);
//    EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 1\nmock 2\n"), _)).Times(1);
//    EXPECT_CALL(mockServer, send(IpcLogLineMessageEq("mock 3\nmock 4\n"), _)).Times(1);
//
//    IpcLogOutputter outputter(mockServer, kIpcClientUnknown, false);
//    outputter.bufferRateLimit(4, 1); // 1s (should be plenty of time)
//
//    // log 1 more line than the buffer can accept in time limit.
//    outputter.write(kNOTE, "mock 1");
//    outputter.write(kNOTE, "mock 2");
//    outputter.sendBuffer();
//
//    // after waiting the time limit send another to make sure
//    // we can log after the time limit passes.
//    outputter.write(kNOTE, "mock 3");
//    outputter.write(kNOTE, "mock 4");
//    outputter.sendBuffer();
//}

#endif // WINAPI_MSWINDOWS
